carboxylic acid derivatives and nucleophilic acyl substitution...
TRANSCRIPT
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Chapter 21: Carboxylic Acid Derivatives and Nucleophilic Acyl Substitution Reactions
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General Reactions of Carboxylic Acid Derivatives
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Carboxylic Compounds Acyl group bonded to Y, an electronegative atom or
leaving group Includes: Y = halide (acid halides), acyloxy (anhydrides),
alkoxy (esters), amine (amides), thiolate (thioesters), phosphate (acyl phosphates)
R OH
O
Carboxylic Acid
R X
O
X = Cl, BrAcid Halides
R O
O O
R'Acid Anhydride
R OR'
O
Ester
R NH2
O
AmideR SR'
O
ThioesterR O
OPO
O-O-
Acyl Phosphate
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Naming Carboxylic Acid Derivatives
Acid Halides, RCOX Derived from the carboxylic acid name by
replacing the -ic acid ending with -yl or the -carboxylic acid ending with –carbonyl and specifying the halide
OCl
Acetyl ChlorideO
Br
Benzoyl BromideO
Cl
Cyclohexanecarbonyl chloride
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Naming Amides, RCONH2 With unsubstituted NH2 group. replace -oic acid or -ic
acid with -amide, or by replacing the -carboxylic acidending with –carboxamide
If the N is further substituted, identify the substituent groups (preceded by “N”) and then the parent amide
OH2N
Acetamide
O
H2N
Hexanamide
O
H2N
Cyclohexanecarboxamide
ON
N,N-Dimethyl-propamide
O
NHN-Methyl-cyclohexamide
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Naming Esters, RCO2R′ Name R’ and then, after a space, the carboxylic acid
(RCOOH), with the “-ic acid” ending replaced by “-ate”
O
OEthyl Acetate
O
OO
ODimethyl malonate
O
O
Cyclohexanecarboxylic acid isopropyl ester
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Relative Reactivity of Carboxylic Acid Derivatives Nucleophiles react
more readily with unhindered carbonyl groups
More electrophilic carbonyl groups are more reactive to addition (acyl halides are most reactive, amides are least)
The intermediate with the best leaving group decomposes fastest
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General Reaction Pattern
Nucleophilic acyl substitution
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Substitution in Synthesis We can readily convert a more reactive acid derivative
into a less reactive one Reactions in the opposite sense are possible but require
more complex approaches
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Nucleophilic Acyl Substitution Reactions of Carboxylic Acids Must enhance reactivity Convert OH into a better leaving group Specific reagents can produce acid chlorides,
anhydrides, esters, amides
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Conversion of Carboxylic Acids into Acid Chlorides Reaction with thionyl chloride, SOCl2
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Conversion of Carboxylic Acids into Esters Methods include reaction of a carboxylate anion with
a primary alkyl halide
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Fischer Esterification
Heating a carboxylic acid in an alcohol solvent containing a small amount of strong acid produces an ester from the alcohol and acid
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Chemistry of Acid Halides Acid chlorides are prepared from carboxylic acids by
reaction with SOCl2 Reaction of a carboxylic acid with PBr3 yields the acid
bromide
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Reactions of Acid Halides Nucleophilic acyl substitution Halogen replaced by OH, by OR, or by NH2
Reduction yields a primary alcohol Grignard reagent yields a tertiary alcohol
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Hydrolysis: Conversion of Acid Halides into Acids Acid chlorides react with water to yield carboxylic
acids HCl is generated during the hydrolysis: a base is
added to remove the HCl
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Conversion of Acid Halides to Esters
Esters are produced in the reaction of acid chlorides react with alcohols in the presence of pyridine or NaOH
The reaction is better with less steric bulk
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Aminolysis: Conversion of Acid Halides into Amides
Amides result from the reaction of acid chlorides with NH3, primary (RNH2) and secondary amines (R2NH)
The reaction with tertiary amines (R3N) gives an unstable species that cannot be isolated
HCl is neutralized by the amine or an added base
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Reduction: Conversion of Acid Chlorides into Alcohols LiAlH4 reduces acid chlorides to yield aldehydes and
then primary alcohols
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Reaction of Acid Chlorides with Organometallic Reagents Grignard reagents react with acid chlorides to yield
tertiary alcohols in which two of the substituents are the same
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Formation of Ketones from Acid Chlorides Reaction of an acid chloride with a lithium
diorganocopper (Gilman) reagent, Li+ R2Cu−
Addition produces an acyl diorganocopper intermediate, followed by loss of R′Cu and formation of the ketone
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Chemistry of Esters Many esters are pleasant-smelling liquids: fragrant
odors of fruits and flowers Also present in fats and vegetable oils
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Preparation of Esters
Esters are usually prepared from carboxylic acids
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Reactions of Esters Less reactive toward nucleophiles than are acid
chlorides or anhydrides Cyclic esters are called lactones and react similarly to
acyclic esters
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Hydrolysis: Conversion of Esters into Carboxylic Acids An ester is hydrolyzed by aqueous base or aqueous
acid to yield a carboxylic acid plus an alcohol
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Acid Catalyzed Ester Hydrolysis
The usual pathway is the reverse of the Fischer esterification
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Aminolysis of Esters
Ammonia reacts with esters to form amides
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Reduction: Conversion of Esters into Alcohols Reaction with LiAlH4 yields primary alcohols
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Reaction of Esters with Grignard Reagents React with 2 equivalents of a Grignard reagent to
yield a tertiary alcohol
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Chemistry of Amides Prepared by reaction of an acid chloride with
ammonia, monosubstituted amines, or disubstituted amines
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Reactions of Amides Heating in either aqueous acid or aqueous base
produces a carboxylic acid and amine Acidic hydrolysis by nucleophilic addition of water to
the protonated amide, followed by loss of ammonia
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Basic Hydrolysis of Amides
Addition of hydroxide and loss of amide ion
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Reduction: Conversion of Amides into Amines Reduced by LiAlH4 to an amine rather than an
alcohol Converts C=O → CH2